//===-- DWARFCallFrameInfo.h ------------------------------------*- C++ -*-===//
//
//                     The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//

#ifndef liblldb_DWARFCallFrameInfo_h_
#define liblldb_DWARFCallFrameInfo_h_

#include <map>
#include <mutex>

#include "lldb/Core/AddressRange.h"
#include "lldb/Core/DataExtractor.h"
#include "lldb/Core/Flags.h"
#include "lldb/Core/RangeMap.h"
#include "lldb/Core/VMRange.h"
#include "lldb/Core/dwarf.h"
#include "lldb/Symbol/ObjectFile.h"
#include "lldb/Symbol/UnwindPlan.h"
#include "lldb/lldb-private.h"

namespace lldb_private {

// DWARFCallFrameInfo is a class which can read eh_frame and DWARF
// Call Frame Information FDEs.  It stores little information internally.
// Only two APIs are exported - one to find the high/low pc values
// of a function given a text address via the information in the
// eh_frame / debug_frame, and one to generate an UnwindPlan based
// on the FDE in the eh_frame / debug_frame section.

class DWARFCallFrameInfo {
public:
  DWARFCallFrameInfo(ObjectFile &objfile, lldb::SectionSP &section,
                     lldb::RegisterKind reg_kind, bool is_eh_frame);

  ~DWARFCallFrameInfo();

  // Locate an AddressRange that includes the provided Address in this
  // object's eh_frame/debug_info
  // Returns true if a range is found to cover that address.
  bool GetAddressRange(Address addr, AddressRange &range);

  // Return an UnwindPlan based on the call frame information encoded
  // in the FDE of this DWARFCallFrameInfo section.
  bool GetUnwindPlan(Address addr, UnwindPlan &unwind_plan);

  typedef RangeVector<lldb::addr_t, uint32_t> FunctionAddressAndSizeVector;

  //------------------------------------------------------------------
  // Build a vector of file address and size for all functions in this Module
  // based on the eh_frame FDE entries.
  //
  // The eh_frame information can be a useful source of file address and size of
  // the functions in a Module.  Often a binary's non-exported symbols are
  // stripped
  // before shipping so lldb won't know the start addr / size of many functions
  // in the Module.  But the eh_frame can help to give the addresses of these
  // stripped symbols, at least.
  //
  // @param[out] function_info
  //      A vector provided by the caller is filled out.  May be empty if no
  //      FDEs/no eh_frame
  //      is present in this Module.

  void
  GetFunctionAddressAndSizeVector(FunctionAddressAndSizeVector &function_info);

  void ForEachFDEEntries(
      const std::function<bool(lldb::addr_t, uint32_t, dw_offset_t)> &callback);

private:
  enum { CFI_AUG_MAX_SIZE = 8, CFI_HEADER_SIZE = 8 };

  struct CIE {
    dw_offset_t cie_offset;
    uint8_t version;
    char augmentation[CFI_AUG_MAX_SIZE]; // This is typically empty or very
                                         // short.
    uint32_t code_align;
    int32_t data_align;
    uint32_t return_addr_reg_num;
    dw_offset_t inst_offset; // offset of CIE instructions in mCFIData
    uint32_t inst_length;    // length of CIE instructions in mCFIData
    uint8_t ptr_encoding;
    uint8_t lsda_addr_encoding;   // The encoding of the LSDA address in the FDE
                                  // augmentation data
    lldb::addr_t personality_loc; // (file) address of the pointer to the
                                  // personality routine
    lldb_private::UnwindPlan::Row initial_row;

    CIE(dw_offset_t offset)
        : cie_offset(offset), version(-1), code_align(0), data_align(0),
          return_addr_reg_num(LLDB_INVALID_REGNUM), inst_offset(0),
          inst_length(0), ptr_encoding(0), lsda_addr_encoding(DW_EH_PE_omit),
          personality_loc(LLDB_INVALID_ADDRESS), initial_row() {}
  };

  typedef std::shared_ptr<CIE> CIESP;

  typedef std::map<dw_offset_t, CIESP> cie_map_t;

  // Start address (file address), size, offset of FDE location
  // used for finding an FDE for a given File address; the start address field
  // is
  // an offset into an individual Module.
  typedef RangeDataVector<lldb::addr_t, uint32_t, dw_offset_t> FDEEntryMap;

  bool IsEHFrame() const;

  bool GetFDEEntryByFileAddress(lldb::addr_t file_offset,
                                FDEEntryMap::Entry &fde_entry);

  void GetFDEIndex();

  bool FDEToUnwindPlan(uint32_t offset, Address startaddr,
                       UnwindPlan &unwind_plan);

  const CIE *GetCIE(dw_offset_t cie_offset);

  void GetCFIData();

  // Applies the specified DWARF opcode to the given row. This function handle
  // the commands
  // operates only on a single row (these are the ones what can appear both in
  // CIE and in FDE).
  // Returns true if the opcode is handled and false otherwise.
  bool HandleCommonDwarfOpcode(uint8_t primary_opcode, uint8_t extended_opcode,
                               int32_t data_align, lldb::offset_t &offset,
                               UnwindPlan::Row &row);

  ObjectFile &m_objfile;
  lldb::SectionSP m_section_sp;
  lldb::RegisterKind m_reg_kind;
  Flags m_flags;
  cie_map_t m_cie_map;

  DataExtractor m_cfi_data;
  bool m_cfi_data_initialized; // only copy the section into the DE once

  FDEEntryMap m_fde_index;
  bool m_fde_index_initialized; // only scan the section for FDEs once
  std::mutex m_fde_index_mutex; // and isolate the thread that does it

  bool m_is_eh_frame;

  CIESP
  ParseCIE(const uint32_t cie_offset);
};

} // namespace lldb_private

#endif // liblldb_DWARFCallFrameInfo_h_
